CN220369166U - Seedling bed is educated to big-arch shelter morning and evening tides irrigation - Google Patents

Abstract

The utility model discloses a greenhouse tide irrigation seedling bed, which comprises a plurality of adjustable seedling bed supporting frames, wherein silk screen seedling beds are arranged on the seedling bed supporting frames; the seedbed supporting frames comprise a pair of outer seedbed supporting frames and a plurality of middle seedbed supporting frames, wherein the outer seedbed supporting frames and the plurality of middle seedbed supporting frames are respectively provided with a pair of upright posts, a middle supporting beam is arranged between the pair of upright posts of the middle seedbed supporting frames, a side supporting beam is arranged between the pair of upright posts of the outer seedbed supporting frames, a rotating shaft is arranged on the middle supporting beam, and two ends of the rotating shaft respectively rotate to penetrate through the side supporting beams; the silk screen seedbed is supported on the rotating shaft, a rolling assembly is further arranged at the position of the silk screen seedbed, which is located at the side supporting cross beam, and the rolling assembly is rotatably connected with two ends of the rotating shaft and is supported on the side supporting cross beam in a rolling manner. The seedling bed for tidal irrigation of the greenhouse is simple in structure, easy to install and use, capable of being installed and used in batches in the greenhouse, and capable of providing favorable conditions for seedling cultivation, and has flexibility and stability.

Description

Seedling bed is educated to big-arch shelter morning and evening tides irrigation

Technical Field

The utility model relates to the technical field of greenhouse seedling raising, in particular to a greenhouse tide irrigation seedling raising bed.

Background

The construction of the greenhouse provides a good growth environment for the growth and breeding of vegetables, and can provide a greenhouse growth period and increase the yield in seasons unsuitable for plant growth. In order to facilitate the arrangement of seedling pots in a greenhouse, a seedling raising bed is generally used, for example, a greenhouse vegetable seedling raising facility is disclosed in Chinese patent (publication No. CN 202979774U), the seedling raising facility is a substantially rolling seedling raising bed, the bed frame can move left and right to leave a sidewalk, the management and operation of seedling raising are convenient, although the seedling raising facility has the advantage of being movable, the stability is insufficient only by using a roller as a support, and the limit in the front-back and left-right directions is lacking.

In addition, the pure net-shaped seedbed has no advantages in seedling irrigation, moisture can scatter to all parts of facilities during conventional seedbed irrigation, and water can drop below the seedbed, so that the seedbed is moist, weeds and fungi are easy to breed, the production environment is not neat, and the effects of water and fertilizer conservation are not achieved.

Disclosure of Invention

The utility model aims at solving the problems existing in the prior art and provides a greenhouse tide irrigation seedling bed.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a greenhouse tide irrigation seedling bed comprises a plurality of adjustable seedling bed supporting frames, wherein silk screen seedling beds are arranged on the seedling bed supporting frames; the seedbed supporting frames comprise a pair of outer seedbed supporting frames and a plurality of middle seedbed supporting frames, the outer seedbed supporting frames and the middle seedbed supporting frames are respectively provided with a pair of upright posts, a middle supporting beam is arranged between a pair of upright posts of the middle seedbed supporting frames, a side supporting beam is arranged between a pair of upright posts of the outer seedbed supporting frames, a plurality of middle supporting beams are provided with rotating shafts, and two ends of each rotating shaft respectively rotate to pass through the side supporting beams; the middle part of the silk screen seedbed is supported on the rotating shaft, the silk screen seedbed is positioned at the side supporting cross beam and is further provided with a rolling assembly, and the rolling assembly is rotatably connected with two ends of the rotating shaft and is supported on the side supporting cross beam in a rolling manner.

The seedling bed for tidal irrigation of the greenhouse has a simple structure, is easy to install and use, can be installed and used in batches in the greenhouse, and provides favorable conditions for seedling; the seedling raising bed has flexibility and stability, the silk screen seedling raising bed can reciprocate in the width direction relative to the seedling raising bed support frame so as to adjust the nursery position placed above, support can be formed in the whole length direction, movement in the length direction is limited, and the support stability is good.

The greenhouse tidal irrigation seedling bed avoids instability of directly and completely utilizing the rotating shaft to support the silk screen seedling bed, but retains convenience of the rotating shaft to support the silk screen seedling bed; the outer seedbed supporting frame is properly improved, and can be matched with the silk screen seedbed better.

Further, the diameter of the middle part of the rotating shaft is larger than that of the two ends, the rotating shaft directly supports the silk screen seedbed by using the thicker part of the middle part, and the thinner parts of the two ends can be connected with the rolling parts and penetrate through the side supporting beams. The middle support cross beam has a lower level than the side support cross beams.

Further, a strip-shaped groove for the rotation shaft to pass through is formed in the side wall of the side support beam, a rolling groove with an upward opening is formed in the side support beam, and the rolling assembly is arranged in the rolling groove in a rolling mode. The strip-shaped groove is arranged to play a role in limiting and guiding, so that the rotating shaft can move in the range; the rolling groove formed in the upper portion can accommodate the rolling assembly, and the rolling assembly moves in the rolling groove along with the rolling assembly in the moving process of the rotating shaft.

Further, the rolling assembly comprises a pair of lug plates connected with the silk screen seedbed, a pair of rollers are arranged between the lug plates, the pair of lug plates and the rollers are all arranged on the rotating shaft in a penetrating mode, and the rollers are arranged in the rolling grooves. The structure is provided with a good limiting effect, the pair of lug plates are limited in the width range of the rolling groove, the displacement of the silk screen seedbed in the whole length direction can be reduced, and the roller can be prevented from falling off.

Further, the middle supporting beam is also provided with a plurality of pairs of limiting blocks, so that the limiting of the rotating shaft can be formed on the middle supporting beam; the lower part of the silk screen seedbed is also provided with a positioning connecting plate close to the side supporting beam, so that the seedling raising bed can be switched between a movable seedling raising bed and a fixed seedling raising bed.

Further, the silk screen seedbed comprises a seedbed frame and a steel wire mesh arranged in the seedbed frame; the two side edges of the seedbed frame are respectively provided with a metal frame, and the metal frames are provided with annular wrapping edges for the connecting rods to pass through.

Further, a tidal irrigation cultivation tray is further arranged on the silk screen seedling bed.

Further, a secondary beam is arranged between a pair of the upright posts, and inclined lacing wires are arranged between the upright posts of the adjacent seedbed supporting frames; the stand is spliced on the adjusting sleeve, and a supporting bottom plate is arranged on the bottom plate of the adjusting sleeve.

Furthermore, a water collecting tank is arranged below the silk screen seedbed. The water collecting tank can recycle water flowing back in the tidal irrigation cultivation tray, and the water is pumped for irrigation after treatment, so that the water saving effect is achieved.

Compared with the prior art, the utility model has the beneficial effects that: 1. the seedling bed for tidal irrigation of the greenhouse has a simple structure, is easy to install and use, can be installed and used in batches in the greenhouse, and provides favorable conditions for seedling; the seedling raising bed has flexibility and stability, and the silk screen seedling raising bed can be switched in state under various use requirements; 2. the greenhouse tidal irrigation seedling bed avoids the instability of supporting the silk screen seedling bed by using the rotating shaft, maintains the convenience of directly supporting the silk screen seedling bed by using the rotating shaft, and simultaneously improves the outer seedling bed supporting frame properly, so that the greenhouse tidal irrigation seedling bed can be matched with the silk screen seedling bed better; 3. the seedling raising bed is flexible in length setting, the distance between a pair of outer seedling raising bed support frames is the total length required to be laid, the middle support frames with different numbers can be selected for supporting according to different lengths, and the middle support frames are supported by utilizing direct contact of the rotating shafts, so that no additional connecting piece is needed, and the seedling raising bed is convenient to set; 4. the connection structure of the rolling assembly, the rotating shaft and the side supporting beams has a good limiting effect, the pair of ear plates are limited in the width range of the rolling groove, the displacement of the silk screen seedbed in the whole length direction can be reduced, and the roller can be prevented from falling off.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a greenhouse tidal irrigation seedling bed of the present utility model;

FIG. 2 is a schematic view of a support structure of the intermediate seedbed support frame in accordance with the present utility model;

FIG. 3 is a schematic view of the support structure of the outer seedbed support frame of the utility model;

FIG. 4 is a schematic cross-sectional view of the structure at A-A in FIG. 3;

FIG. 5 is a schematic view of the splicing of the silk screen seedbed of the present utility model;

FIG. 6 is a schematic view of the structure of a tidal irrigation cultivation tray provided on a wire mesh seedling bed of the present utility model;

FIG. 7 is a schematic view of the utility model with a sump under the screen seedbed;

in the figure: 1. a silk screen seedbed; 101. a seedbed frame; 102. a steel wire mesh; 103. a metal frame; 104. annular edge wrapping; 2. an outer seedbed supporting frame; 201. a side support beam; 3. a middle seedbed supporting frame; 301. a middle support beam; 4. a rotating shaft; 5. a column; 6. a limiting block; 7. a rectangular groove; 8. a rolling groove; 9. ear plates; 10. a roller; 11. positioning a connecting plate; 12. a secondary beam; 13. diagonal lacing wires; 14. adjusting the sleeve; 15. a support base plate; 16. a connecting rod; 17. a tidal irrigation cultivation tray; 18. a water collecting tank; 19. and a water return pipe.

Detailed Description

The following description of the embodiments of the present utility model will be made more apparent and fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by one of ordinary skill in the art without undue burden on the person of ordinary skill in the art based on embodiments of the present utility model, are within the scope of the present utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "middle", "upper", "lower", "left", "right", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element to be referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 3, a greenhouse tidal irrigation seedling bed comprises a plurality of adjustable seedling bed supporting frames, wherein a silk screen seedling bed 1 is arranged on each seedling bed supporting frame; the seedbed supporting frames comprise a pair of outer seedbed supporting frames 2 and a plurality of middle seedbed supporting frames 3, the outer seedbed supporting frames 2 and the middle seedbed supporting frames 3 are respectively provided with a pair of upright posts 5, a middle supporting beam 301 is arranged between the pair of upright posts of the middle seedbed supporting frames 3, a side supporting beam 201 is arranged between the pair of upright posts of the outer seedbed supporting frames 2, a plurality of middle supporting beams 301 are provided with rotating shafts 4, and two ends of the rotating shafts 4 respectively rotate to penetrate through the side supporting beams 201; the middle part of the silk screen seedbed 1 is supported on the rotating shaft 4, the silk screen seedbed 1 is positioned at the side supporting beam 201 and is further provided with a rolling assembly, and the rolling assembly is rotatably connected with two ends of the rotating shaft 4 and is supported on the side supporting beam 201 in a rolling manner.

The seedling bed for tidal irrigation of the greenhouse has a simple structure, is easy to install and use, can be installed and used in batches in the greenhouse, and provides favorable conditions for seedling; the seedling raising bed has flexibility and stability, the silk screen seedling raising bed 1 can reciprocate in the width direction relative to the seedling raising bed support frame so as to adjust the nursery position placed above, support can be formed in the whole length direction, movement in the length direction is limited, and the support stability is good.

The greenhouse tidal irrigation seedling bed avoids instability of directly and completely utilizing the rotating shaft to support the silk screen seedling bed, but retains convenience of the rotating shaft to support the silk screen seedling bed; the outer seedbed supporting frame 2 is properly improved, and can be matched with the silk screen seedbed better.

The middle part of silk screen seedbed 1 can directly support on axis of rotation 4, both ends pass through rolling element's setting can with axis of rotation 4 with side supporting beam 201 is connected, when the rotation axis of rotation 4, axis of rotation 4 can be pivoted follow the seedbed support frame removes rolling element's connection down, silk screen seedbed 1 also can follow the removal, and the middle part directly supports the silk screen seedbed part in axis of rotation also can not produce the motion interference, does not influence axis of rotation and self removal.

The seedling raising bed can be arranged according to actual demands, the length is flexibly arranged, the outer seedling raising bed support frames 2 can be arranged at two ends according to the required length, and a plurality of middle seedling raising bed support frames 3 can be arranged at intervals in the middle to support a silk screen seedling raising bed; except that the supporting structures at the two ends are different, the supporting structures in the middle are basically the same, so that the supporting structures can be flexibly arranged, and the length is not limited by the supporting frame. That is to say, in this application, a pair of interval between the outside seedbed supporting frame 2 is the total length that needs to lay, and the middle support then can select the middle seedbed supporting frame 3 of different quantity to support according to the difference of length, because the middle support is that the direct contact that utilizes the axis of rotation supports, need not extra connecting piece, sets up just comparatively conveniently.

In some embodiments, if the length of the seedling raising bed is long, the rotating shaft can be considered to be a multi-section spliced structure, and the silk net seedling raising bed can also be a multi-section spliced structure, so that the arrangement of the large-scale seedling raising bed is convenient.

Further, the diameter of the middle part of the rotation shaft 4 is larger than that of the two ends, and the horizontal height of the middle support beam 301 is lower than that of the side support beams 201. The rotation shaft 4 directly supports the wire mesh seedbed 1 with a thicker middle portion, and a thinner end portion may connect the rolling members and pass through the side support beams.

Further, a strip-shaped groove 7 through which the rotation shaft passes is formed in the side wall of the side support beam 201, a rolling groove 8 with an upward opening is formed in the side support beam 201, and the rolling assembly is arranged in the rolling groove 8 in a rolling manner.

The strip-shaped groove 7 plays a role in limiting and guiding, and can enable the rotating shaft to move in the range; the rolling groove 8 arranged above can accommodate the rolling assembly, and the rolling assembly moves in the rolling groove along with the rolling assembly in the moving process of the rotating shaft.

The rectangular grooves 7 are arranged in a pair in a left-right manner, the number of the rotating shafts 4 is two symmetrically arranged, and more rotating shafts can be arranged; the end part of at least one rotating shaft is connected with a hand wheel, and the rotation and the movement of the hand wheel can be controlled by rotating the hand wheel.

Further, as shown in fig. 4, the rolling assembly includes a pair of ear plates 9 connected to the wire mesh seedbed 1, a roller 10 is disposed between the pair of ear plates 9, the pair of ear plates 9 and the roller 10 are all disposed on the rotating shaft 4 in a penetrating manner, and the roller 10 is disposed in the rolling groove 8.

The pair of ear plates 9 can form a supporting structure while being connected with the rotating shaft 4, the upper silk screen seedbed is supported, and the roller 10 can roll in the rolling groove 8. The structure has a good limiting effect, the pair of ear plates 9 are limited in the width range of the rolling groove 8, the displacement of the silk screen seedbed 1 in the whole length direction can be reduced, and the roller 10 can be prevented from falling off.

In some embodiments, a shallow groove is further provided at the bottom of the rolling groove 8, and the roller 10 may be disposed in the shallow groove to axially limit the roller.

Further, the middle supporting beam 301 is further provided with a plurality of pairs of limiting blocks 6, and a positioning connection plate 11 is further arranged below the screen seedling bed 1 near the side supporting beam 201.

The limiting block 6 is arranged, so that the limiting of the rotating shaft can be formed on the middle supporting beam. The positioning connection plate 11 plays a role in fixing the silk screen seedbed 1, and can enable the silk screen seedbed 1 to be switched between a movable seedling raising bed and a fixed seedling raising bed; when the positioning connection plate 11 is not connected with the side supporting beam 201, the silk screen seedbed 1 can move freely, namely, is movable; when the positioning connection plate 11 is connected with the side supporting beams 201 through bolts, the wire mesh seedbed 1 can be used as a fixed type seedbed. The two types of seedling raising beds can be suitable for the seedling raising and cultivation requirements of different plants.

Further, as shown in fig. 1 and 5, the wire mesh seedbed 1 includes a seedbed frame 101, and a wire mesh 102 disposed in the seedbed frame 101, where seedling pot plants can be directly disposed on the wire mesh 102; the two side edges of the seedbed frame 101 are respectively provided with a metal frame 103, and the metal frames 103 are provided with annular wrapping edges 104 for connecting rods to pass through. Fig. 5 shows a spliced silk-screen seedbed structure, and can be integrated in practice.

The metal frame 103 can not only increase the strength, but also form a connecting structure for splicing a plurality of silk screen seedbeds 1; after the silk screen seedbeds 1 are spliced together, the silk screen seedbeds 1 can be better connected and fixed by connecting rods 16 penetrating through the annular wrapping edges 104.

In some embodiments, as shown in fig. 6, the wire mesh seedbed 1 is further provided with a tidal irrigation cultivating tray 17. The tidal irrigation cultivation tray 17 can be installed in the seedbed frame 101 of the silk-screen seedbed 1 in a clamping manner, and the two are matched for use, so that better seedling raising effects, such as water and fertilizer saving, plant diseases and insect pests reduction and the like, can be achieved, and irrigation is more uniform.

Further, a secondary beam 12 is further arranged between a pair of the upright posts 5, and inclined lacing wires 13 are arranged between the upright posts 5 of the adjacent seedbed supporting frames; the upright 5 is inserted on the adjusting sleeve 14, and a supporting bottom plate 15 is arranged on the bottom plate of the adjusting sleeve 14.

The arrangement of the secondary beams 12 can improve the connection strength and stability of a single seedbed supporting frame, and the arrangement of the diagonal lacing wires 13 can improve the connection stability of adjacent seedbed supporting frames; the supporting bottom plate 15 is directly and fixedly arranged on the ground foundation of the greenhouse through a ground anchor bolt, the upright posts 5 are inserted into the adjusting sleeve 14 and are connected through bolts, and the height of the adjusting sleeve 14 can be properly adjusted so as to facilitate fine adjustment of the height of the seedbed supporting frame.

Further, as shown in fig. 7, a water collecting tank 18 with a cover is also arranged below the wire mesh seedbed 1. The water collecting tank 18 can be arranged to recycle the water flowing back in the tidal irrigation cultivation tray 17 by using the water return pipe 19, and the water is pumped up again for irrigation after treatment, so that the water saving effect is achieved.

In some embodiments, the water temperature in the water collection tank 18 can be adjusted, such as by providing some heat dissipation pipes to reduce the temperature of the water, and a reasonable water temperature is also beneficial for raising seedlings.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The greenhouse tide irrigation seedling bed is characterized by comprising a plurality of adjustable seedling bed supporting frames, wherein a silk screen seedling bed is arranged on each seedling bed supporting frame; the seedbed supporting frames comprise a pair of outer seedbed supporting frames and a plurality of middle seedbed supporting frames, the outer seedbed supporting frames and the middle seedbed supporting frames are respectively provided with a pair of upright posts, a middle supporting beam is arranged between a pair of upright posts of the middle seedbed supporting frames, a side supporting beam is arranged between a pair of upright posts of the outer seedbed supporting frames, a plurality of middle supporting beams are provided with rotating shafts, and two ends of each rotating shaft respectively rotate to pass through the side supporting beams; the middle part of the silk screen seedbed is supported on the rotating shaft, the silk screen seedbed is positioned at the side supporting cross beam and is further provided with a rolling assembly, and the rolling assembly is rotatably connected with two ends of the rotating shaft and is supported on the side supporting cross beam in a rolling manner.

2. The greenhouse tidal irrigation seedbed of claim 1, wherein the diameter of the middle part of the rotating shaft is larger than the diameters of the two ends, and the horizontal height of the middle supporting beam is lower than that of the side supporting beams.

3. The greenhouse tidal irrigation seedling bed according to claim 1, wherein a strip-shaped groove for the rotation shaft to pass through is formed in the side wall of the side support beam, a rolling groove with an upward opening is formed in the side support beam, and the rolling assembly is arranged in the rolling groove in a rolling mode.

4. A greenhouse tidal irrigation seedling bed according to claim 3, wherein the rolling assembly comprises a pair of ear plates connected with the silk screen seedling bed, a pair of rollers are arranged between the pair of ear plates, the pair of ear plates and the rollers are all arranged on the rotating shaft in a penetrating manner, and the rollers are arranged in the rolling grooves.

5. The greenhouse tidal irrigation seedling bed according to claim 1, wherein a plurality of pairs of limiting blocks are further arranged on the middle supporting beam, and a positioning connecting plate is further arranged below the silk screen seedling bed and close to the side supporting beams.

6. The greenhouse tidal irrigation seedling bed according to claim 1, wherein the wire mesh seedling bed comprises a seedling bed frame and a wire mesh arranged in the seedling bed frame; the two side edges of the seedbed frame are respectively provided with a metal frame, and the metal frames are provided with annular wrapping edges for the connecting rods to pass through.

7. The greenhouse tidal irrigation seedling bed according to claim 1, wherein the silk screen seedling bed is further provided with a tidal irrigation cultivation tray.

8. The greenhouse tidal irrigation seedling bed according to claim 1, wherein a secondary beam is further arranged between a pair of the upright posts, and diagonal lacing wires are arranged between the upright posts of adjacent seedling bed supporting frames; the stand is spliced on the adjusting sleeve, and a supporting bottom plate is arranged on the bottom plate of the adjusting sleeve.

9. The greenhouse tidal irrigation seedling bed according to claim 1, wherein a water collecting tank is further arranged below the silk screen seedling bed.